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Abstract:

An electronic device includes a chip card, a controlling unit, a
transport mechanism, and a positioning module. The transport mechanism is
electrically connected to the controlling unit and transports the chip
card under the control of the controlling unit. The positioning module is
electrically connected to the controlling unit and is for pushing the
chip card to remove the chip card.

Claims:

1. A card loading assembly comprising: a controlling unit; a transport
mechanism, the transport mechanism including two spaced apart toothed
rollers being electrically connected to the controlling unit; the toothed
rollers being controlled to rotate for transporting and a positioning
module, the positioning module electrically connected to the controlling
unit.

2. The card loading assembly claimed of claim 1, wherein the controlling
unit includes a controlling chip and a switch electrically connected to
the controlling chip, the transport mechanism further includes two motors
for driving the toothed rollers, each motor and the positioning module
are electrically connected to the controlling chip, and the first switch
is for powering on or powering off the motor by the controlling chip.

3. The card loading assembly claimed of claim 1, wherein the switch
includes a first electrical contact and a second electrical contact, the
first and second contacts are of metal, the first contact can elastically
touch the second contact.

4. The card loading assembly claimed of claim 1, wherein the positioning
module includes an ejecting element and an electromagnet, the
electromagnet is electrically connected to the controlling chip, and the
electromagnet attracts the ejecting element when the electromagnet is
powered on by the controlling chip.

5. The card loading assembly claimed of claim 4, wherein the card loading
assembly further includes a second switch electrically connected to the
controlling chip, the second switch includes a first contact and a second
contact, the first and second contacts are of metal, the first contact
can be elastically bent down to connect to the second contact.

6. The card loading assembly claimed of claim 4, wherein each toothed
roller is a gear.

7. A card loading assembly for moving a chip card, the card loading
assembly comprising: a transport mechanism including two spaced apart
toothed rollers, the toothed rollers rotating for transmitting the chip
card disposed between the toothed rollers; and a positioning module,
abutting one end of the chip card, the positioning module pushing the
chip card when the chip card is to be removed.

8. The card loading assembly claimed of claim 7, wherein the card loading
assembly further includes a controlling unit, the transmission further
includes a motor, the controlling unit includes a controlling chip and a
switch electrically connected to the controlling chip, the motor and the
positioning module are electrically connected to the controlling chip,
and the first switch is for powering on or powering off the motor by the
controlling chip.

9. The card loading assembly claimed of claim 8, wherein the switch
includes a first contact and a second contact, the first and second
contacts are of metal, the first contact can be elastically bent down to
connect to the second contact.

10. The card loading assembly claimed of claim 9, wherein the positioning
module includes a ejecting element and an electromagnet, the
electromagnet is electrically connected to the controlling chip, and the
electromagnet attracts the ejecting element when the electromagnet is
powered on by the controlling chip.

11. The card loading assembly claimed of claim 10, wherein the card
loading assembly further includes a second switch electrically connected
to the controlling chip, the second switch includes a first contact and a
second contact, the first and second contacts are of metal, the first
contact can be elastically bent down to connect to the second contact.

12. The card loading assembly claimed of claim 8, wherein each toothed
roller is a gear, the gears drive the chip card.

13. A electronic device comprising: a controlling unit; a transport
mechanism, the transport mechanism electrically connected to the
controlling unit and transferring a chip card under the control of the
controlling unit; and a positioning module, the positioning module
electrically connected to the controlling unit and pushing the chip card
to remove the chip card.

14. The electronic device claimed of claim 13, wherein the controlling
unit includes a controlling chip and a switch electrically connected to
the controlling chip, the transport mechanism includes two spaced apart
toothed rollers and a motor for driving one of the rollers, the motor and
the positioning module are electrically connected to the controlling
chip, and the first switch is for powering on or powering off the motor
by the controlling chip.

15. The electronic device claimed of claim 14, wherein the switch
includes a first electrical contact and a second electrical contact, the
first and second contacts are of metal, the first contact can be
elastically bent down to connect to the second contact.

16. The electronic device claimed of claim 15, wherein the positioning
module includes a ejecting element and an electromagnet, the
electromagnet is electrically connected to the controlling chip, and the
electromagnet attracts the ejecting element when the electromagnet is
powered on by the controlling chip.

17. The electronic device claimed of claim 16, wherein the electronic
device further includes a second switch electrically connected to the
controlling chip, the second switch includes a first contact and a second
contact, the first and second contacts are of metal, the first contact
can be elastically bent down to connect to the second contact.

18. The electronic device claimed of claim 17, wherein the chip card
includes a corner chamfered, when the chip card is inserted in the
electronic device, the first switch is powered on before the second
switch.

19. The electronic device claimed of claim 14, wherein each of the
toothed rollers is a gear.

Description:

BACKGROUND

[0001] 1. Technical Field

[0002] The disclosure generally relates to card holder assemblies and,
particularly, to a card loading assembly for an electronic device.

[0003] 2. Description of Related Art

[0004] Electronic devices, such as mobile phones, personal digital
assistants (PDAs), notebook, etc, are widely used in our daily life. Chip
cards, such as subscriber identity module (SIM) cards, security cards
(SDs), etc, are utilized in the electronic devices to provide
identification, authentication, data storage and application processing.
However, to remove conventional chip cards, they must be removed from the
electronic manually, which is difficult given the limited space of the
electronic device.

[0005] Therefore, there is room for improvement within the art.

BRIEF DESCRIPTION OF THE DRAWINGS

[0006] Many aspects of the exemplary card loading assembly can be better
understood with reference to the following drawings. The components in
the drawings are not necessarily drawn to scale, the emphasis instead
being placed upon clearly illustrating the principles of the card loading
assembly. Moreover, in the drawings, like reference numerals designate
corresponding parts throughout the several views, in which:

[0007] FIG. 1 is an assembled, isometric view of one portion of an
electronic device with a card loading assembly ;

[0008] FIG. 2 is a view of the card loading assembly of FIG. 1;

[0009] FIG. 3 is a block diagram of the electronic device;

[0010] FIG. 4 is an exploded view of the card loading assembly of FIG. 1;

[0011] FIG. 5 is a side elevation view of the electronic device with a
chip card being inserted into the electronic device;

[0012] FIG. 6 is a view of the card loading assembly, with part of the
chip card received in the electronic device, and

[0013] FIG. 7 is similar to FIG. 5, but with the chip card received in the
electronic device.

DETAILED DESCRIPTION

[0014] The disclosure is illustrated by way of example and not by way of
limitation in the accompanying drawings. It should be noted that
references to "an" or "one" embodiment in this disclosure are not
necessarily to the same embodiment, and such references can include the
meaning of "at least one" embodiment where the context permits.

[0015] FIG. 1 illustrates one portion of an electronic device 200. The
electronic device 200 includes a card loading assembly 100, a chip card
201, a support plate 203, and a frame 205. The frame 205 is secured to
one end of the support plate 203. The chip card 201 can be loaded by the
card loading assembly 100 through the frame 205, thus, the chip card 201
can be installed or be ejected from the electronic device 200
automatically.

[0016] A corner of the chip card 201 is truncated/chamfered to prevent the
chip card 201 from being mis-inserted. A through hole 2051 is defined in
the frame 205 to form a passage for the chip card 201. A connector (not
shown) is oriented at the support plate 203 to electrically connect the
chip card 201 to the electronic device 200.

[0017] Referring to FIGS. 2 and 3, the card loading assembly 100 includes
a chip card transport mechanism 10, a controlling unit 30, and a
positioning module 50. The transport mechanism 10 is for driving the chip
card 201, the controlling unit 30 is electrically connected to both the
transport mechanism 10 and the positioning module 50 to control the
movement of the transport mechanism 10 and the positioning module 50.

[0018] The transport mechanism 10 includes a first motor 11, a first
toothed roller 13, a second motor 15, and a second toothed roller 17. The
first and second motors 11 and 15 are electrically connected to the
controlling unit 30 and are for respectively driving the first and second
toothed rollers 13 and 15 to rotate. In the exemplary embodiment, the
first toothed roller 13 and the second toothed roller 17 can be made of
metal or plastic.

[0019] The controlling unit 30 includes a controlling chip 31, a first
switch 33, a second switch 34, and a third switch 35. Each of the
switches 33, 34 or 35 is electrically connected to the controlling chip
31.

[0020] The first switch 33 includes a first electrical contact 331 and a
second electrical contact 333. The first and second electrical contacts
331 and 333 are substantially L-shaped and are made of metal, such as
iron or copper. The first contact 331 is higher than the second contact
333 in FIG. 2. When the chip card 201 is first inserted, the corner of
the chip card that is not chamfered will push the first contact 331 to
touch the second contact 333 to close the first switch 33. Thus, the
first switch 33 is switched on. The second and third switches 34 and 35
substantially have similar structures as the first switch 33. The second
switch 34 includes a first electrical contact 341 and a second electrical
contact 343. The third switch 35 includes a first electrical contact 351
and a second electrical contact 353.

[0021] Referring to FIG. 4, the positioning module 50 includes an ejecting
element 51, an elastic element 53, a block 55, and an electromagnet 57.
The ejecting element 51 is for pushing the chip card 201 when the chip
card 201 is to be ejected and removed from the electronic device 200. The
block 55 is secured to the plate 203 and is for supporting the ejecting
element 51.

[0022] The ejecting element 51 includes a resisting portion 511, a rod
513, and a disk portion 515. The rod 513 substantially perpendicularly
projects from one side of the ejecting element 51, and the disk portion
515 is formed or secured to the distant end of the rod 513. In the
exemplary embodiment, the elastic element 53 is a helix spring made of
metal. A notch 551 is defined in the block 55 to allow the rod 513 to
pass therethrough. The electromagnet 57 is electrically connected to the
controlling chip 31. The disk portion 515 is made of magnetic material.
When the electromagnet 57 is powered, the electromagnet 57 attracts the
disk portion 515 to retain the ejecting element 51 in a predetermined
position.

[0023] During assembly, the support plate 203 is secured to the housing of
the electronic device 200. The frame 205 is oriented adjacent to one end
of the plate 203. The first motor 11 is secured to the housing. The first
toothed roller 13 is secured to the first motor 11 and is electrically
connected to the controlling chip 31. Similarly, the second toothed
roller 17 is secured to the second motor 15 and is electrically connected
to the controlling chip 31. The first contact 331 and the second contact
333 of the first switch 33 are attached to the support plate 203, with
the first contact 331 abutting the frame 205. Similarly, the second
switch 34 is attached to the plate 203. The first contact 351 and the
second contact 353 of the third switch 35 are secured to the other side
of the plate 203.

[0024] Then the positioning module 50 is secured to the electronic device
200. The block 55 is fixed to the plate 203 adjacent to the third switch
35. The elastic element 53 is coiled around the rod 513, and the disk
portion 515 is fixed to one end of the rod 513. The rod 513 is slidably
received in the notch 551. Finally, the electromagnet 57 is secured to
the housing, with one end abutting the disk portion 515. Thus, the
electronic device 200 is assembled, as shown in FIG. 2.

[0025] Referring to FIGS. 5 and 6, to install the chip card 201 in the
electronic device 200, first, the end of the chip card 201 with the
truncated corner is inserted into the through hole 2051. When the chip
card 201 abuts the first contact 331 of the first switch 33, the chip
card 201 is further pushed by the user causing the first contact 331 to
touch the second contact 333. Thus, the first switch 33 is powered on,
and the first and second motors 11 and 15 are respectively switched on by
the controlling chip 31. Then, the chip card 201 is driven by the first
and second toothed rollers 13 and 17, and moves towards the ejecting
element 51.

[0026] When the chip card 201 moves, the first contact 341 is forced to
bend down and contact the second contact 343, thus, the second switch 34
is powered on. The chip card 201 pushes against the ejecting element 51
moving the ejecting element 51 along the block 55. When the ejecting
element 51 moves, the elastic element 53 elastically deforms. The
ejecting element 51 moves until the disk portion 515 pushes the first
contact 351 into contact with the second contact 353. When the first
contact 351 is contacted to the second contact 353, the third switch 35
is powered on, and the electromagnet 57 is powered on and attracts the
disk portion 515 and the controlling chip 31 stops the first and second
motors 11 and 15 rotating. Thus, the chip card 201 is secured to the
electronic device 200, as shown in FIG. 7.

[0027] When the chip card 201 is incorrectly inserted, the first switch 33
cannot be switched on before the second switch 34, and the controlling
chip 31 disables the first motor 11, thus, the electronic device 200 can
prevent the chip card 201 from being incorrectly inserted.

[0028] When the chip card 201 is to be removed, the electromagnet 57 is
powered off by the controlling chip 31 and the first and second motors 11
and 15 reverse, the chip card 201 is pushed by the ejecting element 51
and is driven by the first and second toothed rollers 13 and 17. One end
of the chip card 201 is pushed out of the through hole 2051, and the chip
card 201 can then be easily grasped and removed from the electronic
device 200. At the same time, the first contact 351 rebounds to its
original position and shape separates from the second contact 351, thus,
the third switch 35 is powered off. Similarly, the first and second
modules 33 are powered off.

[0029] It is to be understood, the second motor 15 can be omitted, thus,
the second toothed roller 17 is configured as a driven toothed roller
when the card loading assembly 100 is used for removing the chip card
201.

[0030] The exemplary embodiments of the electronic device 200, the chip
card 201 is automatically assembled or removed by the card loading
assembly 100, thus, the electronic device 200 is easy to use.

[0031] It is believed that the present embodiments and their advantages
will be understood from the foregoing description, and it will be
apparent that various changes may be made thereto without departing from
the spirit and scope of the disclosure or sacrificing all of its material
advantages, the examples hereinbefore described merely being preferred or
exemplary embodiments of the disclosure.